A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Virus removal by advanced membrane filtration for wastewater reclamation
Measurements of indigenous and seeded male‐specific (MS2) bacteriophages were made in an effort to gain insight into the response of membrane filtration systems to varying virus concentrations and varying flow rates at the Terminal Island Treatment Plant, operated by the City of Los Angeles Bureau of Sanitation. Bacteriophages were seeded into secondary effluent that had been filtered through a trimedia filter. The seeded effluent was then processed by microfiltration (MF) and reverse osmosis (RO) pilot units for which the Department of Water and Power was evaluating effluent water quality parameters in conjunction with a water reclamation project. The samples were assayed for virus. The seeded tests utilized higher concentrations of MS2 viruses and sampled the process streams with higher time resolution than those used by other researchers in comparable experiments. As expected from the physics of RO process, the RO unit reduced the virus concentration below the threshold of detection, but the MF membranes consistently reduced virus concentrations by less than one log unit (order of magnitude). This MF performance differs from most results of similar tests carried out elsewhere, but it was consistently observed, despite substantial variability in the virus removal factor, as revealed by the high time resolution of the measurements. Budgetary limits prevented extending this research to clarify the indications in the data that removal efficiency may be affected by the MF unit's backwash cycle, or the membrane flux, but if these results can be verified, they may provide valuable insight for improved membrane technology and planning for large‐scale membrane‐based water reclamation.
Virus removal by advanced membrane filtration for wastewater reclamation
Measurements of indigenous and seeded male‐specific (MS2) bacteriophages were made in an effort to gain insight into the response of membrane filtration systems to varying virus concentrations and varying flow rates at the Terminal Island Treatment Plant, operated by the City of Los Angeles Bureau of Sanitation. Bacteriophages were seeded into secondary effluent that had been filtered through a trimedia filter. The seeded effluent was then processed by microfiltration (MF) and reverse osmosis (RO) pilot units for which the Department of Water and Power was evaluating effluent water quality parameters in conjunction with a water reclamation project. The samples were assayed for virus. The seeded tests utilized higher concentrations of MS2 viruses and sampled the process streams with higher time resolution than those used by other researchers in comparable experiments. As expected from the physics of RO process, the RO unit reduced the virus concentration below the threshold of detection, but the MF membranes consistently reduced virus concentrations by less than one log unit (order of magnitude). This MF performance differs from most results of similar tests carried out elsewhere, but it was consistently observed, despite substantial variability in the virus removal factor, as revealed by the high time resolution of the measurements. Budgetary limits prevented extending this research to clarify the indications in the data that removal efficiency may be affected by the MF unit's backwash cycle, or the membrane flux, but if these results can be verified, they may provide valuable insight for improved membrane technology and planning for large‐scale membrane‐based water reclamation.
Virus removal by advanced membrane filtration for wastewater reclamation
Iranpour, Reza (author)
Water Environment Research ; 70 ; 1198-1204
1998-09-01
7 pages
Article (Journal)
Electronic Resource
English
The Importance of Filtration in Wastewater Reclamation
Online Contents | 1995
Water reclamation and reuse - Membrane filtration in water recycling: Removal of natural hormones
| Online Contents | 2003
Advanced wastewater treatment and reclamation : proceedings
| UB Braunschweig | 1991
Application of Granular Media Filtration in Wastewater Reclamation and Reuse
| Online Contents | 2004
Domestic wastewater - Water reclamation with membrane bioreactors
| Online Contents | 2001